钛酸金对革兰氏阳性龋齿细菌的抑菌活性。

Acta Biomaterialia Odontologica Scandinavica Pub Date : 2015-09-18 eCollection Date: 2015-12-01 DOI:10.3109/23337931.2015.1084883
Trinuch Eiampongpaiboon, Whasun O Chung, James D Bryers, Kwok-Hung Chung, Daniel C N Chan
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引用次数: 11

摘要

目的:革兰氏阳性龋菌是龋病的病原;因此,抑制这些细菌以减少这种疾病发生的策略已经加强。在这项研究中,我们研究了钛酸盐和金钛酸盐对干酪乳杆菌(Lc)和变形链球菌(Sm)的抗菌活性。材料与方法:采用钛酸钠(MST)、纳米钛酸钠(nMST)和无定形过氧钛酸钠(APT)这三种对特定金属离子具有高结合亲和力的无机化合物。在钛酸金孵育24小时后,测量细菌总蛋白以代表细菌细胞质量。我们通过活/死荧光染色和菌落形成单位(cfu)进一步研究了nMST-Au(III)浓度(10,200,400 mg/L)随时间对Lc和Sm细胞活力的影响。透射电子显微镜(TEM)测定受nMST-Au(III)影响的细菌细胞上的特定位置。结果:我们发现所有钛酸金和APT单独降低了Lc (p值p值)的细菌蛋白。TEM图像显示,nMST-Au(III)附着在Lc和Sm细胞壁上,并被内化为两种细胞。结论:nMST-Au(III)对革兰氏阳性龋齿细菌具有潜在的抗菌活性。这些结果支持了nMST-Au(III)作为一种潜在的预防龋齿的新材料的进一步开发。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Antibacterial activity of gold-titanates on Gram-positive cariogenic bacteria.

Objective: Gram-positive cariogenic bacteria are etiological agents in dental caries; therefore, strategies to inhibit these bacteria to reduce the incident of this disease have intensified. In this study, we investigated antibacterial activities of titanates and gold-titanates against Lactobacillus casei (Lc) and Streptococcus mutans (Sm). Materials and methods: Monosodium titanate (MST), nanomonosodium titanate (nMST) and amorphous peroxo-titanate (APT), which are inorganic compounds with high-binding affinity for specific metal ions, were used. Total bacterial proteins were measured to represent bacterial cell mass after 24 h incubation with gold-titanates. We further examined the effect of nMST-Au(III) concentrations (10,200,400 mg/L) on Lc and Sm cell viability over time via Live/Dead fluorescent staining and colony forming units (CFUs). Transmission electron microscopy (TEM) was used to determine specific locations on the bacterial cells affected by the nMST-Au(III). Results: We found all gold-titanates and APT alone reduced bacterial protein for Lc (p value <0.001) while only MST-Au(III) and nMST-Au(III) affected Sm growth (p value <0.001). Overall, nMST-Au(III) showed the most effectiveness against both Lc and Sm at 400 mg/L. The Live/Dead staining showed all concentrations of nMST-Au(III) affected Lc growth but only 200 and 400 mg/L nMST-Au(III) interrupted Sm growth. The growth curves based on CFUs/mL showed all nMST-Au(III) concentrations affected growth of both Lc and Sm. TEM images showed nMST-Au(III) attached to Lc and Sm cell wall and were internalized into both cells.Conclusions: nMST-Au(III) demonstrated potential antimicrobial activity against Gram-positive cariogenic bacteria. These results support further development of nMST-Au(III) as a potential novel material to prevent dental caries.

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